according to en 15804, iso 14025 and iso 21930 · luxury vinyl tile (lvt) according to en 15804,...

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Luxury Vinyl Tile (LVT) Natural Creations® with Diamond 10® TechnologyNatural Creations® Classics

A C C O R D I N G T O E N 1 5 8 0 4 , I S O 1 4 0 2 5 A N D I S O 2 1 9 3 0

ASTM International www.astm.orgCopyright © 2019

Armstrong Luxury Vinyl Tile captures the essence of earth’s woods, stones, metals and original graphic

designs in a wide array of tile and plank sizes. Commercial LVT combines the best of durability,

technology, and design. Diamond 10® Technology, available on Natural Creations®, provides category-

leading scratch, stain, and scuff resistance for floors that look newer, longer.

Envir

onm

enta

l Pro

duct

Dec

lara

tion

EPD

Primary Energy 233.12 MJ

Ozone Depletion Potential 2.35E-09 kg R11-eq.

Global Warming Potential 10.33 kg CO2-eq.

Acidification Potential 0.05 kg SO2-eq.

Eutrophication Potential2.35E-03 kg (PO4)3--eq.

Photochem Ozone Creation Potential0.55 kg O3-eq.

150+ Years of Excellence Our founder, Thomas Armstrong, pioneered the principle “Let the buyer have faith,”

standing behind his products and giving customers confidence in their purchase. More than

a century later, that philosophy is alive and well in Armstrong Flooring.

We are committed to delivering solutions that reduce the environmental impact of the

buildings you create. From product design and raw material selection, to production and

delivery, we work to demonstrate continuous improvement to remain as strong and vital as

our 150-year heritage.

Flooring Components:Limestone, Polyvinyl chloride (PVC), Dioctyl Terephthalate (DOTP), Zinc Salt, Calcium Phosphate, Titanium Dioxide, Carbon Black, Pigments

Lifecyle Impact Categories Cradle to grave environmental impacts for 1 m2 of LVT with Diamond 10® Technology

coating flooring assuming a 1-year service life.

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Luxury Vinyl Tile (LVT) Natural Creations® with Diamond 10® TechnologyNatural Creations® Classics

A C C O R D I N G T O E N 1 5 8 0 4 , I S O 1 4 0 2 5 A N D I S O 2 1 9 3 0

ASTM International www.astm.orgCopyright © 2019

This document is a Type III Environmental Product Declaration by Armstrong Flooring, Inc. that is certified by ASTM as conforming to the requirements of ISO 14025, EN 15804 and ISO 21930 ASTM has assessed that the Life Cycle Assessment (LCA) information fulfills the requirements of ISO 14040 in accordance with the instructions listed in the product category rules cited below. The intent of this document is to further the development of environmentally compatible and sustainable construction methods by providing comprehensive environmental information related to potential impacts in accordance with international standards.

Declared Product & Functional Unit

Luxury Vinyl Tile, 1 m2

Reference PCR Part A: PCR for building-related products, 2018 Part B: Flooring EPD Requirements [UL Environment], v2.0 September, 2018

Product Application Floor covering choice in commercial spaces:• Healthcare• Education• Retail• Hospitality• Office

Product Reference Service Life 30 Years

Markets of Applicability North America

Date of Issue December 20, 2019

Date of Validity 5 Years

EPD Type Product Specific

EPD Scope Cradle to Grave

Year of Primary Data 2017-2018

LCA Software & Version GaBi v8.7.1.30

LCI Database(s) & Version GaBi 2017

LCIA Method TRACI 2.1

Verification and Authorization of the Declaration

This declaration and the rules on which this EPD is based have been examined by an independent external verifier in accordance with ISO 14025 and ISO 21930.

This life cycle assessment was independently verified in accordance with ISO 14044 and the reference PCR by:

X

X

Tim Brooke Vice President, Certification

Date December 20, 2019

Tom Gloria External Verifier

Date December 20, 2019

ASTM certification of this EPD is not to be construed as representing aesthetics or any other attributes not specifically addressed, nor should it be construed as an ASTM endorsement of the subject of the EPD or a recommendation for its use. There is no warranty by ASTM, express or implied, as to any finding or other matter in the EPD, or as to any product covered by the EPD. The EPD holder is liable for the information and evidence on which the EPD is based.

Declaration Number EPD-0004

Program Operator ASTM International - 100 Barr Harbor Drive, West Conshohocken, PA, 19428, USA www.astm.org

Manufacturer Armstrong Flooring, Inc.- 2500 Columbia Avenue, Lancaster, PA 17603

Luxury Vinyl Tile (LVT) ACCORDING TO EN 15804, ISO 14025 AND ISO 21930

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2.0 Product Introduction

2.1 Company Description Armstrong Flooring, Inc. (NYSE: AFI) is a global leader in the design and manufacture of innovative flooring solutions that inspire beauty wherever your life happens. Headquartered in Lancaster, Pennsylvania, Armstrong Flooring is a leading manufacturer of resilient products across North America. The company safely and responsibly operates 8 manufacturing facilities globally, working to provide the highest levels of service, quality and innovation to ensure it remains as strong and vital as its 150-year heritage. Learn more armstrongflooring.com.

2.2 Product Description Armstrong Flooring Luxury Vinyl Tile captures the essence of earth’s woods, stones, metals and original graphic designs in a wide array of tile and plank sizes. Commercial LVT combines the best of durability, technology, and design for floors that look newer, longer. It features a layered construction consisting of a tough, clear rigid, vinyl wear layer protecting a high-fidelity print layer on a solid vinyl backing. Diamond 10® Technology, available on Natural Creations®, provides category-leading scratch, stain, and scuff resistance for floors that look newer, longer.

2.2.1 Brands Natural Creations® with Diamond 10® TechnologyNatural Creations® ClassicsParallel® 20Parallel® 12

2.2.2 Specifications Armstrong Flooring Luxury Vinyl Tile meets or exceeds the performance requirements of ASTM F 1700, Standard Specification for Solid Vinyl Floor Tile.

2.2.3 Product Specific EPD This EPD Is intended to represent product specific life cycle assessment results for the Armstrong Flooring LVT brands in Section 2.2.1.

2.3 Application LVT is a widely used commercial resilient flooring option and is routinely used with great success in healthcare, education, retail, and corporate segments. Properly installed and maintained, LVT provides decades of proven performance across all commercial segments.

2.4 Declaration of Methodological FrameworkThe Life Cycle Assessment (LCA) was performed according to ISO 14040 and followed the PCR instructions. The cradle-to-grave LCA encompasses all relevant life cycle stages and modules including raw material production; transport of raw materials to the production facility; manufacturing of flooring; packaging; transportation to job site; use phase; and end of life including disposal or recycling. Detailed information regarding cut-off and allocation procedures are in sections 2.5 and 2.9.

2.5 Technical Data

ARMSTRONG LVT WITH DIAMOND 10® TECHNOLOGY COATING AVERAGE VALUE UNIT

Product Thickness 3.2 (0.125) mm (in.)

Wear Layer Thickness 0.5 (0.02) mm (in.)Product Weight 5810 g/m2

Product Form Tile

4 x 36 12 x 12

inches6 x 36 12 x 24

8 x 36 16 x 16

6 x 48 18 x 18

Cultured Diamond-Infused Coating

Rigid Wear Layer

Print Film

Foundation Layer

Product Structure

Figure 1. Example product structure for Natural Creations® with Diamond 10® Technology

Table 1: Luxury Vinyl Tile (LVT) Technical DataTable 1 below represents all products presented in this EPD. To determine the average weight, the mass of each Luxury Vinyl Tile was used proportionally to determine the overall average value in the chart.


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2.6 Market Placement / Application Rules All Armstrong Flooring LVT meets or exceeds the performance requirements of ASTM F 1700, Standard Specification for Solid Vinyl Floor Tile. It meets the below performance requirements for the following test methods:

2.7 Material Composition Table 3: Material Composition for LVT

Table 2: Performance and Test Methods for LVT

ASTM

F 1

700

PERFORMANCE TEST METHOD REQUIREMENT PERFORMANCE VS. REQUIREMENT

Thickness ASTM F 386 Nominal ± 0.005 in. Meets

Wear Layer Thickness ASTM F 410 0.020 in. (0.5 mm) minimum for Commercial Use Meets

Size ASTM F 2421 ± 0.016 in. per linear foot Meets

Squareness ASTM F 2421 0.010 in. maximum

Residual Indentation ASTM F 1914 Average less than 8% Meets

Chemical Resistance ASTM F 925 No more than slight change in surface dulling, attack or staining Meets

Heat Resistance ASTM F 1514 ΔE ≤ 8 Meets

Light Resistance ASTM F 1515 ΔE ≤ 8 Meets

Static Load Limit Resistance @ 250 ASTM F 970 ≤ 0.005 in. Meets

Addi

tiona

l Tes

ting

Static Load Resistance ASTM F 970* ≤ 0.005 in. 2000 psi

Dimensional Stability Internal≤ 0.018 in. per linear foot MD ≤ 0.012 in. per linear foot AMD

Meets

Fire Test Data – Flame Spread ASTM E 648 0.45 w/cm2 or more Class I Meets

Fire Test Data – Smoke Evolution ASTM E 662 450 or less Meets

Fire Test Data – CanadaCAN\ ULC S102.2

Use dependentFlame Spread - 10 Smoke Developed - 125

ADA Standards for Accessible Design

Chapter 3 Section 302.1

Floor surfaces shall be stable, firm and slip resistant Meets

Static Coefficient of Friction*ASTM D2047 UL 410

≥ 0.5 Meets

* Testing at loads above 250 psi is outside the scope of the test method. Since testing is conducted on uninstalled flooring, results do not consider the performance of the adhesive, underlayment, or subfloor. These test results are not an indicator of the installed flooring system performance.

** Using the James Machine as described in D2047 and as directed in UL 410 for floor covering materials (FCM) using a leather foot under dry conditions. The application of site-applied floor sealers, polishes and other types of finishes routinely used to maintain resilient flooring materials will change the walking surface and consequently the SCOF value.

MATERIAL CONTENT FUNCTION CASRN

QUANTITY (% BY WEIGHT)

AVAILABILITYLVT

LVT WITH DIAMOND 10® TECHNOLOGY

Limestone Flour Filler 1317-65-3 55-60% 65-70% Abundant Mineral Non-Renewable

Polyvinyl chloride (PVC) Binder/Film9002-86-2

30-35% 25-30% Fossil Limited Non-Renewable9003-22-9

Dioctyl Terephthalate (DOTP) Plasticizer 6422-86-2 5-10% 5-10% Fossil Limited Non-Renewable

Zinc Salt Stabilizers 6865-35-6 1-2% 0.5-1% Abundent Mineral Non-Renewable

Calcium Phosphate Stabilizers 10103-46-5 0% 0.1-0.5%

Titanium Dioxide White Pigment 13463-67-7 0% 0.1-0.5% Abundant Mineral Non-Renewable

Carbon Black Black Pigment 1333-86-4 0% 0.1-0.5% Abundant Mineral Non-Renewable

Pigments Colorants Various 0.1-0.5% 0.1-0.5% Abundent Mineral Non-Renewable


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2.8 Manufacturing Armstrong LVT is floor tile and planks used in residential and commercial flooring applications and is comprised mostly of limestone in a vinyl binder matrix. The manufacturing process involves the hot mixing of the raw materials milled and calendered into a hot sheet which is then laminated with different layers by a hot press machine. The sheet is coated and then slowly cooled or annealed to make it stronger, before being cut into tiles.

2.9 Packaging Armstrong Flooring LVT is packaged in a recyclable corrugated box and placed on a wooden pallet for shipping.

2.10 Installation Armstrong Flooring LVT must be installed in strict accordance with the Armstrong Flooring Guaranteed Installation Systems manual, F-5061. This comprehensive guide to Armstrong flooring installation provides all the information needed to properly install Armstrong Flooring LVT to ensure it will look great and perform exactly as it should. Visit armstrongflooring.com/commercial for more information.

2.11 Use ConditionsRecommended maintenance practices are provided in the installation guide and are required as part of the warranty. Warranty details can be found at armstrongflooring.com/commercial. For Armstrong Flooring LVT, the recommended maintenance is representative of medium intensity maintenance, as shown in Table 6. Because maintenance procedures often vary depending on the building owner’s maintenance practices, level of use, and traffic conditions, Table 6 provides low, medium and high maintenance scenarios. The low intensity maintenance scenario results in lower environmental impacts. For example, less scrubbing means less water consumption and a lower eutrophication potential.

2.12 Reference Service Life & Estimated Building Service LifePer the PCR, this product has a 30 year reference service life and is intended for a building with a 75-year estimated service life.

2.13 Reuse, Recycling & Energy RecoveryArmstrong Flooring LVT can be recycled through the On&On® Recycling Program provided it meet program requirements. See www.armstrongflooring.com/reclaim

Figure 2: Process for Armstrong Flooring LVT

Removed

LVT LaminatedRaw Materials Arrive

LVT UV-Coated

Base Layer Formed

Sheet Cooled

LandfillInstalled and Used

CutPackaged

Shipped to Customer


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Table 5: Construction Works Assessment Information

PRODUCTION STAGE

CONSTRUCTION STAGE

USE STAGEB1 AND B3-B7 ARE DECLARED AS HAVING ZERO IMPACT AS NO REPAIR OR REFURBISHMENT IS EXPECTED ONCE THE PRODUCT IS INSTALLED. THE USE STAGE ACCOUNTS FOR CLEANING OF THE FLOOR.

END-OF-LIFE STAGE

Extra

ctio

n &

Upst

ream

Pro

duct

ion

A1

Tran

spor

t to

Fact

ory

A2

Man

ufac

turin

g A3

Tran

spor

t to

Site

A4

Inst

alla

tion

A5

Use

B1

Mai

nten

ance

B2

Repa

ir B3

Rep

lace

men

t B4

Refu

rbis

hmen

t B5

De-c

onst

ruct

ion

/ Dem

oliti

on C

1

Tran

spor

t to

was

te p

roce

ssin

g or

Dis

posa

l C2

Was

te P

roce

ssin

g C3

Disp

osal

C4

X X X X X X X X X X X

Table 4: End of Life Assumptions COMPONENT RECYCLED LANDFILLED INCINERATED

Product 0% 100% 0%

Paper Packaging 75% 20% 5%

2.14 DisposalAt the end of life, this product is assumed to be disposed per PCR requirements (UL, 2018) as shown in Table 4. Waste classification is based on the Resource Conservation and Recovery Act. Disposal in municipal landfill or commercial incineration facilities is permissible and should be done in accordance with local, state, and federal regulations.

2.15 Further Information Please visit www.armstrongflooring.com/commercial for additional information regarding Armstrong Flooring LVT flooring products.

3.1 Functional Unit The functional unit for this EPD is 1 m2 of 2.0 mm Armstrong Flooring LVT for use over 1 year. Flooring System View: In order to understand the complete view of a flooring system, life cycle information is included for the total flooring system based on 1 square meter (m2) view. This includes the flooring, adhesives and finishes applied during the use stage.

3.2 System Boundaries The system boundaries studied as part of this life cycle assessment include the following stages which are shown in Table 5:

Production stage – Modules A1 to A3 which include the extraction manufacture and transportation of raw materials, flooring production.

Construction Stage – Modules A4-A5 which include the transportation to job site and installation.

Use Stage – Includes on Modules B2 (Use) and B4 (Replacement) as the other modules B1, B3 and B5-B7 are declared as having zero impact as no repair or refurbishment is expected once the product is installed. The use stage accounts for cleaning of the floor.

End-of-Life – Modules C1-C4 which includes disposal.

Each module includes provisions of all relevant materials, products and energy. Potential impacts and waste are consider in the module in which they occur. Per the PCR, capital goods and infrastructure flows are assumed to not significantly affect LCA results or conclusions and thus are excluded from the analysis.


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3.3 Product for Use Phase (Module B1-B7) For this study, it was assumed that LVT would last 30 years and therefore would need to be replaced 1.5 times over the building’s useful life if properly installed and maintained. The useful life indicated in the PCR for flooring is 75 years. Recommended maintenance practices are provided in the Armstrong Flooring Installation Guide and required as part of the warranty. For LVT, the recommended maintenance is representative of medium intensity maintenance, as shown in Table 6. Because maintenance procedures often vary depending on the building owner’s maintenance practices, level of use, and traffic conditions, Table 6 provides low, medium and high maintenance scenarios. The low intensity maintenance scenario results in lower environmental impacts. For example, less scrubbing means less water consumption and a lower eutrophication potential.

Table 6: Estimated Maintenance Intensity & Assumptions

MAINTENANCE SCHEDULENUMBER OF TIMES PERFORMED IN 1 YEAR (365 DAYS)

ADDITIONAL RESOURCE CONSUMPTION

LOW MEDIUM HIGH

Sweep /Dry Mop 260 260 260 None

Damp Mop 26 52 104 Water, pre-diluted cleaner

Scrubbing/Spray Buff 6 12 24 Floor finish, electricity

3.4 UnitsThe PCR require SI units for all LCA results.

3.5 Estimations and AssumptionsTransportation Per the PCR (UL, 2018) a distance of 800 km (497 miles) by diesel-powered truck is used to represent the distribution of product to the installation site. For products manufactured outside of the United States, inbound transportation by cargo ship is also included. Additionally, transportation is assumed to be 161 km (100 miles) by diesel-powered truck for the following:

• Product to Building site

• Installation waste to disposal

• Deconstructed product to end of life destination

3.6 Cut-off Rules Cut-off rules are consistent with PCR (UL, 2018). No known flows were deliberately excluded.


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3.7 Data SourcesAll gate-to-gate, primary foreground data was collected for the flooring manufacturing process. This foreground data was from annual production for the year of 2017. Relevant background data was taken from the database provided in the GaBi 8.7.1.30 software system for life cycle engineering. No data set was over 10 years old. The GaBi database provides the life cycle inventory data for the raw and process materials obtained from the background system.

3.8 Data QualityA variety of tests and checks were performed throughout the project to ensure high quality of the completed LCA. Checks included data verification and triangulation against several sources including published LCA studies. Overall, the data quality is considered to be good to high quality.

Temporal: All of the primary data is taken from 12 months of continuous operation in the 2017 calendar year. All secondary data were obtained from the GaBi 2018 databases.

Geographical: All primary and secondary data were collected specific to the countries or regions under study. Where country-specific or region-specific data were unavailable, proxy data were used. Geographical representativeness is considered to be high.

Technological: All primary and secondary data were modeled to be specific to the technologies or technology mixes under study. Where technology-specific data were unavailable, proxy data were used. Technological representativeness is considered to be high.

3.9 Period under reviewPrimary data was collected during 2018. This analysis is intended to represent production in 2017.

3.10 Allocation No co-product or multi-input process allocation occurs in the product system. For reuse, recycling, and recovery allocation, the cut-off allocation approach is adopted in the case of any recycled content, which is assumed to enter the system burden-free. Only environmental impacts from the point of recovery and forward (e.g., collection, sorting, processing, etc.) are considered. With the exception of bio-based packaging waste, product and packaging waste is modeled as being disposed in a landfill rather than incinerated or recycled. Plastic and other construction waste is assumed to be inert in landfills so no system expansion or allocation is necessary as landfill gas is not produced. In the case of biobased packaging waste disposed during installation, landfill gas from the decomposition of this waste is assumed to be collected and used to produce electricity. It is assumed that this recovered energy offsets energy produced by the U.S. average grid.

3.11 Comparability and Benchmarking This EPD compares standard Natural Creations® Classics to Natural Creations® with Diamond® 10 Technology, which is manufactured in the United States. These results are comparable and acceptable according to the PCR and ISO standards, because background datasets, modeling assumptions, and time periods are the same.

Life Cycle Assessment ScenariosThe following information is required by the PCR to be documented.

Table 7: Transportation to the Building Site (A4)

NAME VALUE UNIT

Fuel Type Diesel –

Liters of Fuel 35 L/100km

Vehicle Type Truck (trailer) –

Transportation Distance 800 km

Capacity Utilization (including Empty Runs, Mass Based) 78 %

Gross Density of Products Transported 2.1 kg/m2

Capacity Utilization Volume Factor 1 –


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Table 9: Reference Service Life NAME VALUE UNIT

Reference Service Life 30 years

Table 10: Maintenance (B2) NAME VALUE UNIT

Maintenance Process Information (Cite Source) AFI Maintenance Guide

Maintenance Cycle (Reference Service Life) 1560 (weekly) Cycles/RSL

Maintenance Cycle (Estimated Service Life) 3,900 (weekly) Cycles/ESL

Net Freshwater Consumption: Municipal Water to POTW 0.11 kg/ESL

Ancillary Materials (Pre-diluted Cleaner) 306.7 L/ESL

Energy Input for Spray Buffing 5.67 kWh/ESL

Table 12: End of Life (C1-C4) NAME DESCRIPTION VALUE UNIT

Collection Process Collect Separately 3.3 kg

Disposal Product or Materials for Final Desposition 3.3 kg

4.0 Life Cycle Assessment ResultsThe results in this EPD represent product specific results for one square meter of Armstrong Flooring products. Caution should be used when trying to compare the results presented in this EPD to other products.

4.1 Life Cycle Assessment Impact ResultsResults for the life cycle assessment are presented in the tables below. The Product Category Rules for Flooring require impacts be calculated for a building life of 75 years. This means that during a 75 year time frame, the floor is manufactured, installed, maintained, and replaced multiple times depending upon the floor’s reference service life. The estimated reference service life for Luxury Vinyl Tile is provided in Table 9. The total 75-year impacts are calculated by adding the values from all of the modules plus 74 times the impact in module B2. Additional, impacts for a 1-year service life including disposal are shown in the tables below.

Table 11: Replacement (B4) NAME VALUE UNIT

Reference Service Life 30 Years

Replacement Cycle 1.5 –

Ancillary Materials (Adhesive) 0.56 kg

Electricity Consumption 0.03 MJ

Waste Materials at the Construction Site 0.39 kg

Table 8: Installation into the building (A5) NAME VALUE UNIT

Ancillary Materials 0.37 kg

Electricity Consumption 0.02 MJ

Waste Materials at the Construction Site 0.26 kg


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Table 13: Impact Assessment Results for 1m2 of Natural Creations® Classics

NATURAL CREATIONS® CLASSICS

TRACI 2.1 IMPACT CATEGORY

Global Warming Air, incl. biogenic

carbon

Ozone Depletion Air Acidification Eutrophication Smog Air Resources,

Fossil fuels

UNITS kg CO2 eq. kg CFC 11 eq. kg SO2 eq. kg N eq. kg O3 eq. MJ

Production A1-A3 8.77 2.83E-10 2.97E-02 2.02E-03 0.37 17.34

Transport A4 1.30 -5.71E-15 2.79E-02 1.08E-03 0.54 2.35

Install A5 0.30 2.02E-09 3.41E-03 6.12E-05 0.02 1.42

Maintain B2 0.08 5.32E-15 1.76E-04 3.95E-05 0.00 0.13

Replace B4 15.889 0.000 0.093 0.005 1.428 32.304

Transport C2 0.111 -5.92E-16 5.30E-04 4.38E-05 0.012 0.208

Disposal C4 0.219 -1.13E-14 9.86E-04 5.03E-05 0.020 0.431

Recycling D 0 0 0 0 0 0

75 YEARS 32.630 0.000 0.169 0.011 2.612 64.098

1 YEAR 10.78 2.30E-09 0.063 3.29E-03 0.97 21.88

Table 14: Impact Assessment Results for 1m2 of Natural Creations® with Diamond 10® Technology Coating NATURAL

CREATIONS® WITH DIAMOND 10®

TECHNOLOGY

TRACI 2.1 IMPACT CATEGORY

Global Warming Air, incl. biogenic

carbon

Ozone Depletion Air Acidification Eutrophication Smog Air Resources,

Fossil fuels

UNITS kg CO2 eq. kg CFC 11 eq. kg SO2 eq. kg N eq. kg O3 eq. MJ

Production A1-A3 9.04 2.32E-10 0.04 1.92E-03 0.44 19.19

Transport A4 0.57 -3.06E-15 0.0027 2.26E-04 0.06 1.08

Install A5 0.32 2.12E-09 0.0036 6.42E-05 0.02 1.49

Maintain B2 0.06 1.95E-15 0.0001 3.61E-05 0.00 0.09

Replace B4 15.227 3.52E-09 0.069 3.40E-03 0.805 33.312

Transport C2 0.116 -6.22E-16 0.001 4.61E-05 0.013 0.219

Disposal C4 0.230 -1.19E-14 0.001 5.29E-05 0.021 0.453


75 YEARS 29.828 5.87E-09 0.124 0.008 1.497 62.179

1 YEAR 10.33 2.35E-09 0.047 2.35E-03 0.55 22.51


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Table 15: Resources Use for 1 m2 of Natural Creations® Classics


RESOURCE USE PARAMETERS

Total use of renewable primary energy resources

Renewable primary energy used as energy carrier

Total use of non-renewable primary energy

resources

Non-renewable primary energy used as energy

carrier

Use of net fresh water resources

(FW)

UNITS [MJ, LHV] [MJ, LHV] [MJ, LHV] [MJ, LHV] [m³]

Production A1-A3 14.50 14.50 178.51 178.51 0.08

Transport A4 0.27 0.27 18.20 18.20 0.00

Install A5 0.07 0.07 11.20 11.20 0.00

Maintain B2 0.16 0.16 1.61 1.61 0.00

Replace B4 30.62 30.62 429.83 429.83 0.17

Transport C2 0.05 0.05 1.68 1.68 0.00

Disposal C4 0.27 0.27 3.71 3.71 0.00

Recycling D 0.00 0.00 0.00 0.00 0.00

1 YEAR 15.31 15.31 214.91 214.91 0.09

75 YEARS 57.69 57.69 763.88 763.88 0.15

Table 16: Resources Use for 1 m2 of Natural Creations® with Diamond 10® Technology Coating

NATURAL CREATIONS®

WITH DIAMOND 10® TECHNOLOGY

RESOURCE USE PARAMETERS

Total use of renewable primary energy resources

Renewable primary energy used as energy carrier

Total use of non-renewable primary energy

resources

Non-renewable primary energy used as energy

carrier

Use of net fresh water resources

(FW)

UNITS [MJ, LHV] [MJ, LHV] [MJ, LHV] [MJ, LHV] [m³]

Production A1-A3 9.15 9.15 195.92 195.92 0.05

Transport A4 0.25 0.25 8.68 8.68 0.00

Install A5 0.06 0.06 11.84 11.84 0.00

Maintain B2 0.12 0.12 1.11 1.11 0.00

Replace B4 19.81 19.81 446.43 446.43 0.11

Transport C2 0.05 0.05 1.76 1.76 0.00

Disposal C4 0.28 0.28 3.90 3.90 0.00

Recycling D 0.00 0.00 0.00 0.00 0.00

1 YEAR 9.90 9.90 223.21 223.21 0.05

75 YEARS 38.73 38.73 751.52 751.52 0.02

4.2. Life Cycle Inventory ResultsTables 15 and 16 provide life cycle inventory results for products included in this EPD. Inventory data are are not included for non-renew-able primary energy resources used as raw materials, use of secondary materials (SM), use of renewable secondary fuels (RSF), or use of non-renewable secondary fuels (NRSF) as values for these inventory categories are zero.


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Table 17: Outflows and Waste Categories for 1 m2 of Natural Creations® Classics


OUTFLOWS AND WASTE CATEGORIES

Harardous Waste Disposed (HWD)

Non-Harardous Waste Disposed

(NHWD)

High Level Radioactive Waste Disposed (HLRW)

Intermediate Low Level Radioactive Waste ( ILLRW)

Exported Energy, Electrical

Exported Energy, Thermal

UNITS kg kg kg kg [MJ, LHV] [MJ, LHV]

Production A1-A3 4.93E-04 0.254648461 -2.87E-06 -2.31E-03 0 0

Transport A4 6.33E-08 0.000348274 -3.70E-08 -2.76E-05 0 0

Install A5 5.49E-09 0.408161931 -1.36E-08 -1.09E-05 1.09E-03 5.11E-04

Maintain B2 1.70E-09 0.002179316 -1.03E-07 -8.44E-05 0 0

Replace B4 9.87E-04 1.11E+01 -5.99E-06 -4.93E-03 0 0

Transport C2 1.27E-08 5.89E-05 1.27E-08 -3.38E-06 0 0

Disposal C4 1.20E-08 4.91E+00 1.20E-08 -3.26E-05 0 0


1 YEAR 4.93E-04 5.57E+00 -3.00E-06 -2.46E-03 1.09E-03 5.11E-04

75 YEARS 1.48E-03 1.69E+01 -1.66E-05 -1.36E-02 3.27E-03 1.53E-03

Table 18: Outflows and Waste Categories for 1 m2 of Natural Creations® with Diamond 10® Technology Coating NATURAL

CREATIONS® WITH DIAMOND 10®

TECHNOLOGY

OUTFLOWS AND WASTE CATEGORIES

Harardous Waste Disposed (HWD)

Non-Harardous Waste Disposed

(NHWD)

High Level Radioactive Waste Disposed (HLRW)

Intermediate Low Level Radioactive Waste ( ILLRW)

Exported Energy, Electrical

Exported Energy, Thermal

UNITS kg kg kg kg [MJ, LHV] [MJ, LHV]

Production A1-A3 3.36E-04 3.11E-01 -2.02E-06 -1.62E-03 0 0

Transport A4 6.56E-08 3.05E-04 -2.16E-08 -1.75E-05 0 0

Install A5 5.74E-09 0.429352341 -1.34E-08 -1.07E-05 1.13E-03 5.32E-04

Maintain B2 1.01E-09 0.002116507 -8.08E-08 -6.59E-05 0 0

Replace B4 6.73E-04 1.18E+01 -4.37E-06 -3.51E-03 0 0

Transport C2 1.33E-08 6.20E-05 -4.39E-09 -3.56E-06 0 0

Disposal C4 1.27E-08 5.16E+00 -4.39E-08 -3.43E-05 0 0


1 YEAR 3.36E-04 5.91E+00 -2.19E-06 -1.75E-03 1.13E-03 5.32E-04

75 YEARS 1.01E-03 1.79E+01 -1.25E-05 -1.01E-02 3.39E-03 1.60E-03


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FP7440F10266-1219 © 2019 AFI Licensing LLC. | All other marks are trademarks of Armstrong Flooring, Inc. or its subsidiaries.

5.0 LCA InterpretationUnder the 75-year building service life assumption, product manufacturing (A1-A3) and recommended maintenance (B2) are the largest contributors to most impacts categories considered. The production of raw materials as shown in Figure 3, represents a substantial fraction of potential impact, even over the life of a building. The potential impact of floor maintenance adds up over time and are relevant contributors to the life cycle. Transportation of the flooring product from the manufacturing facility to the installation site (A4) is a relatively minor contributor to all impact categories. Replacement (B4) is a key contributor, because it represents the production, installation and disposal of replacement products needed to satisfy the 75-year building service. The PCR assumes that all flooring product have the same durability, however more durable products will have lower impact.

6.0 Additional Environmental Information

6.1 Environment and Health During ManufacturingAll Armstrong Flooring manufacturing plants maintain an Environmental Management System (EMS) in accordance with ISO 14001 which includes continuous environmental performance targets. Manufacturing plants located outside of the United States including plants in China and Australia are third party certified to ISO 14001 and ISO 9001.

Additionally, Armstrong has a robust internal Quality Assurance process that is based on industry-accepted best practices and is led by a team of quality professionals who have been certified by the American Society for Quality. The process involves several hundred different measures made throughout the manufacturing processes.

6.2 Environment and Health During Installation and Use.All Armstrong flooring products are tested and certified by FloorScore® to comply with the requirements of the California Department of Public Health Standard for the Testing and Evaluation of VOC emissions (CDPH v1.2).

7.0 ReferencesArmstrong Flooring (2018), Guaranteed Installation Systems (F5061) manual. CDPH. (2017) Standard Method for the Testing and Evaluation of Volatile Organic Chemical Emissions from Indoor Sources Using Environmental Chambers – v1.2. ISO. (2006) 14025: Environmental labels and declarations – Type III – environmental declarations – Principles and procedures. ISO. (2006) 14040: Environmental management – Life cycle assessment – Principles and framework.ISO. (2006) 14044: 2006 Environmental management – Life cycle a assessment – Requirements and guidelines.ISO. (2015) 9001 Quality Management Systems – Requirements.ISO. (2017) 21930: Sustainability in buildings and civil engineering works – Core rules for environmental product declarations of construction products and servicesEuropean Standards. (2013) EN 15804+A1 Sustainability of construction works – Environmental product declarations – Core rules for the product category of construction products.UL (2018) Product Category Rules for Building-Related products and Services in North America – Part A, v 3.2.UL (2018) Product Category Rules for Building-Related Products and Service, Part B: Flooring EPD Requirements, v 2.0.US EPA. (2012). Tool for the reduction and assessment of Chemical and other Environmental Impacts (TRACI) v 2.1.

Figure 3. One-Year Life Cycle Impacts for Armstrong Flooring LVT with Diamond 10® Technology

0% 20% 40% 60% 80% 100%

Global Warming

Ozone Depletion

Acidification

Eutrophication

Smog

Abiotic Depletion (fossil)

A1: Raw Materials A2: Inbound Transportation A3: Manufacturing

A4: Transport A5: Install B2: Maintainance

C2: Transport C4: Disposal

according to en 15804, iso 14025 and iso 21930 · luxury vinyl tile (lvt) according to en 15804,...

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